不稳定性
材料科学
液晶
凝聚态物理
各向同性
振幅
平面的
表面能
光学
弹性体
介观物理学
相(物质)
放松(心理学)
机械
物理
复合材料
社会心理学
量子力学
计算机图形学(图像)
计算机科学
心理学
作者
Morgan Barnes,Fan Feng,John S. Biggins
标识
DOI:10.1103/physrevlett.131.238101
摘要
Liquid crystal elastomers (LCEs) are soft phase-changing solids that exhibit large reversible contractions upon heating, Goldstone-like soft modes, and resultant microstructural instabilities. We heat a planar LCE slab to isotropic, clamp the lower surface, then cool back to nematic. Clamping prevents macroscopic elongation, producing compression and microstructure. We see that the free surface destabilizes, adopting topography with amplitude and wavelength similar to thickness. To understand the instability, we numerically compute the microstructural relaxation of a "nonideal" LCE energy. Linear stability reveals a Biot-like scale-free instability, but with oblique wave vector. However, simulation and experiment show that, unlike classic elastic creasing, instability culminates in a crosshatch without cusps or hysteresis, and is constructed entirely from low-stress soft modes.
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